servo/components/layout_2020/fragment_tree/fragment_tree.rs

/* This Source Code Form is subject to the terms of the Mozilla Public
 * License, v. 2.0. If a copy of the MPL was not distributed with this
 * file, You can obtain one at https://mozilla.org/MPL/2.0/. */

use super::{ContainingBlockManager, Fragment, Tag};
use crate::cell::ArcRefCell;
use crate::display_list::StackingContext;
use crate::flow::CanvasBackground;
use crate::geom::PhysicalRect;
use app_units::Au;
use euclid::default::{Point2D, Rect, Size2D};
use fxhash::FxHashSet;
use gfx_traits::print_tree::PrintTree;
use style::animation::AnimationSetKey;
use style::dom::OpaqueNode;
use style::values::computed::Length;
use webrender_api::units;

#[derive(Serialize)]
pub struct FragmentTree {
    /// Fragments at the top-level of the tree.
    ///
    /// If the root element has `display: none`, there are zero fragments.
    /// Otherwise, there is at least one:
    ///
    /// * The first fragment is generated by the root element.
    /// * There may be additional fragments generated by positioned boxes
    ///   that have the initial containing block.
    pub(crate) root_fragments: Vec<ArcRefCell<Fragment>>,

    /// The scrollable overflow rectangle for the entire tree
    /// https://drafts.csswg.org/css-overflow/#scrollable
    pub(crate) scrollable_overflow: PhysicalRect<Length>,

    /// The containing block used in the layout of this fragment tree.
    pub(crate) initial_containing_block: PhysicalRect<Length>,

    /// https://drafts.csswg.org/css-backgrounds/#special-backgrounds
    #[serde(skip)]
    pub(crate) canvas_background: CanvasBackground,
}

impl FragmentTree {
    pub(crate) fn build_display_list(
        &self,
        builder: &mut crate::display_list::DisplayListBuilder,
        root_stacking_context: &StackingContext,
    ) {
        // Paint the canvas’ background (if any) before/under everything else
        root_stacking_context.build_canvas_background_display_list(
            builder,
            self,
            &self.initial_containing_block,
        );
        root_stacking_context.build_display_list(builder);
    }

    pub fn print(&self) {
        let mut print_tree = PrintTree::new("Fragment Tree".to_string());
        for fragment in &self.root_fragments {
            fragment.borrow().print(&mut print_tree);
        }
    }

    pub fn scrollable_overflow(&self) -> units::LayoutSize {
        units::LayoutSize::from_untyped(Size2D::new(
            self.scrollable_overflow.size.width.px(),
            self.scrollable_overflow.size.height.px(),
        ))
    }

    pub(crate) fn find<T>(
        &self,
        mut process_func: impl FnMut(&Fragment, usize, &PhysicalRect<Length>) -> Option<T>,
    ) -> Option<T> {
        let info = ContainingBlockManager {
            for_non_absolute_descendants: &self.initial_containing_block,
            for_absolute_descendants: None,
            for_absolute_and_fixed_descendants: &self.initial_containing_block,
        };
        self.root_fragments
            .iter()
            .find_map(|child| child.borrow().find(&info, 0, &mut process_func))
    }

    pub fn remove_nodes_in_fragment_tree_from_set(&self, set: &mut FxHashSet<AnimationSetKey>) {
        self.find(|fragment, _, _| {
            let tag = fragment.tag()?;
            set.remove(&AnimationSetKey::new(tag.node, tag.pseudo));
            None::<()>
        });
    }

    pub fn get_content_box_for_node(&self, requested_node: OpaqueNode) -> Rect<Au> {
        let mut bounding_box = PhysicalRect::zero();
        let tag_to_find = Tag::new(requested_node);
        self.find(|fragment, _, containing_block| {
            if fragment.tag() != Some(tag_to_find) {
                return None::<()>;
            }

            let fragment_relative_rect = match fragment {
                Fragment::Box(fragment) | Fragment::Float(fragment) => fragment
                    .border_rect()
                    .to_physical(fragment.style.writing_mode, &containing_block),
                Fragment::Text(fragment) => fragment
                    .rect
                    .to_physical(fragment.parent_style.writing_mode, &containing_block),
                Fragment::AbsoluteOrFixedPositioned(_) |
                Fragment::Image(_) |
                Fragment::IFrame(_) |
                Fragment::Anonymous(_) => return None,
            };

            bounding_box = fragment_relative_rect
                .translate(containing_block.origin.to_vector())
                .union(&bounding_box);
            None::<()>
        });

        Rect::new(
            Point2D::new(
                Au::from_f32_px(bounding_box.origin.x.px()),
                Au::from_f32_px(bounding_box.origin.y.px()),
            ),
            Size2D::new(
                Au::from_f32_px(bounding_box.size.width.px()),
                Au::from_f32_px(bounding_box.size.height.px()),
            ),
        )
    }

    pub fn get_border_dimensions_for_node(&self, requested_node: OpaqueNode) -> Rect<i32> {
        let tag_to_find = Tag::new(requested_node);
        self.find(|fragment, _, containing_block| {
            if fragment.tag() != Some(tag_to_find) {
                return None;
            }

            let (style, padding_rect) = match fragment {
                Fragment::Box(fragment) => (&fragment.style, fragment.padding_rect()),
                _ => return None,
            };

            // https://drafts.csswg.org/cssom-view/#dom-element-clienttop
            // " If the element has no associated CSS layout box or if the
            //   CSS layout box is inline, return zero." For this check we
            // also explicitly ignore the list item portion of the display
            // style.
            let display = &style.get_box().display;
            if display.inside() == style::values::specified::box_::DisplayInside::Flow &&
                display.outside() == style::values::specified::box_::DisplayOutside::Inline
            {
                return Some(Rect::zero());
            }

            let padding_rect = padding_rect.to_physical(style.writing_mode, &containing_block);
            let border = style.get_border();
            Some(Rect::new(
                Point2D::new(
                    border.border_left_width.px() as i32,
                    border.border_top_width.px() as i32,
                ),
                Size2D::new(
                    padding_rect.size.width.px() as i32,
                    padding_rect.size.height.px() as i32,
                ),
            ))
        })
        .unwrap_or_else(Rect::zero)
    }

    pub fn get_scroll_area_for_node(&self, requested_node: OpaqueNode) -> Rect<i32> {
        let mut scroll_area: PhysicalRect<Length> = PhysicalRect::zero();
        let tag_to_find = Tag::new(requested_node);
        self.find(|fragment, _, containing_block| {
            if fragment.tag() != Some(tag_to_find) {
                return None::<()>;
            }

            scroll_area = match fragment {
                Fragment::Box(fragment) | Fragment::Float(fragment) => fragment
                    .scrollable_overflow(&containing_block)
                    .translate(containing_block.origin.to_vector()),
                Fragment::Text(_) |
                Fragment::AbsoluteOrFixedPositioned(_) |
                Fragment::Image(_) |
                Fragment::IFrame(_) |
                Fragment::Anonymous(_) => return None,
            };
            None::<()>
        });

        Rect::new(
            Point2D::new(
                scroll_area.origin.x.px() as i32,
                scroll_area.origin.y.px() as i32,
            ),
            Size2D::new(
                scroll_area.size.width.px() as i32,
                scroll_area.size.height.px() as i32,
            ),
        )
    }
}